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I've seen the following type mistake a couple of times while working with C++ code:

QString str = str.toUpper();

This can be a fairly easy mistake to make and yet it compiles and executes (sometimes with crashes, sometimes without). I can't see any circumstances under which it would be something that you'd actually want to do.

Some testing has revealed that the copy constructor is invoked, not the default one, and that the object is being given itself from within the copy constructor.

Can anyone explain why this isn't a compiler error, or even a warning?

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This is designated as undefined behavior (which doesn't require a diagnostic), presumably because there are one or more instances of this sort of code where it would be overly complicated to diagnose. – Mark B Oct 10 '11 at 20:35
Probably because the compiler doesn't know that toUpper() returns the same instance? I can imagine it's very difficult for compiler writers to check that. – Karel Petranek Oct 10 '11 at 20:36
@MarkB: this is defined behavior, see my answer. – Dani Oct 10 '11 at 20:37

2 Answers 2

up vote 7 down vote accepted

Technically the object str is defined when you reach the equal sign, so it can be used at that point.

The error is in trying to initialize the object with itself, and the compiler is allowed to warn about that (if it is able to detect it). However, as the detection is not possible in every case, the compiler is not required.

For example int x = f(x); is entirely correct if int f(const int&) doesn't use the value of its parameter. How is the compiler to know that if it hasn't seen the function body yet?

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That makes sense. I think I would argue (for sanity's sake, if nothing else) that calling f(x) on an x that hasn't been constructed yet should still be an error, since as you mentioned the only scenario where it would be safe is the one in which the function doesn't use it. – Chris Oct 10 '11 at 21:12
Ah yes, but the function can write to it, which is actually ok for builtin types. – Mark B Oct 10 '11 at 21:13
It is worth noting that this syntax IS specifically forbidden when the object is defined via the auto keyword, but for type inference reasons. auto x = x + 1; is not valid and compliant compilers should reject it. – Michael Price Oct 10 '11 at 21:14
@Chris - It actually could save a pointer or a reference to the object and use that later. It just cannot use the value (as there isn't one yet). C and C++ are known for not forbidding things that are just only remotely useful. – Bo Persson Oct 10 '11 at 21:16
So what exactly is the state of x at the equality sign? Which constructor has been invoked at that point? – Kerrek SB Oct 10 '11 at 21:24

There is no error or warning because its equivalent to:

QString str;
str = str.toUpper();

Just like

QString str = "aaa";

is same as

QString str;
str = "aaa";

To do this in the same statement you need to use constructor, which won't compile:

QString str(str.toUpper());

just like:

QString str("aaa");

is not equivalent to

QString str;
str = "aaa";
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It's definitely not equivalent to QString str; str = str.toUpper(); just like QString str = "aaa"; doesn't call the assignment operator. – Mark B Oct 10 '11 at 20:38
Are QString str = "aaa"; and QString str; std = "aaa" actually the same? I'm not a C++ expert, but to me it seems the first calls a constructor while the second calls a default constructor and then operator=. Codepad seems to agree. – delnan Oct 10 '11 at 20:39
-1: QString str = "aaa" will not call the default constructor. It will call the constructor that takes a const char*, and the argument to that constructor will be "aaa". That is, it is not the same as default constructing the QString and then copy-assigning to it. – Nicol Bolas Oct 10 '11 at 20:41
@NicolBolas: It will also call the copy constructor. That call may be omitted, however, the syntax QString str = "aaa" requires an accessible copy-constructor regardless of whether the actual call is omitted or not – Armen Tsirunyan Oct 10 '11 at 21:10

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